Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Beau Belgrave | 2995 | 93.71% | 10 | 71.43% |
sunliming | 196 | 6.13% | 3 | 21.43% |
Ross Zwisler | 5 | 0.16% | 1 | 7.14% |
Total | 3196 | 14 |
// SPDX-License-Identifier: GPL-2.0 /* * User Events FTrace Test Program * * Copyright (c) 2021 Beau Belgrave <beaub@linux.microsoft.com> */ #include <errno.h> #include <linux/user_events.h> #include <stdio.h> #include <stdlib.h> #include <fcntl.h> #include <sys/ioctl.h> #include <sys/stat.h> #include <sys/uio.h> #include <unistd.h> #include "../kselftest_harness.h" #include "user_events_selftests.h" const char *data_file = "/sys/kernel/tracing/user_events_data"; const char *status_file = "/sys/kernel/tracing/user_events_status"; const char *enable_file = "/sys/kernel/tracing/events/user_events/__test_event/enable"; const char *trace_file = "/sys/kernel/tracing/trace"; const char *fmt_file = "/sys/kernel/tracing/events/user_events/__test_event/format"; static int trace_bytes(void) { int fd = open(trace_file, O_RDONLY); char buf[256]; int bytes = 0, got; if (fd == -1) return -1; while (true) { got = read(fd, buf, sizeof(buf)); if (got == -1) return -1; if (got == 0) break; bytes += got; } close(fd); return bytes; } static int skip_until_empty_line(FILE *fp) { int c, last = 0; while (true) { c = getc(fp); if (c == EOF) break; if (last == '\n' && c == '\n') return 0; last = c; } return -1; } static int get_print_fmt(char *buffer, int len) { FILE *fp = fopen(fmt_file, "r"); char *newline; if (!fp) return -1; /* Read until empty line (Skip Common) */ if (skip_until_empty_line(fp) < 0) goto err; /* Read until empty line (Skip Properties) */ if (skip_until_empty_line(fp) < 0) goto err; /* Read in print_fmt: */ if (fgets(buffer, len, fp) == NULL) goto err; newline = strchr(buffer, '\n'); if (newline) *newline = '\0'; fclose(fp); return 0; err: fclose(fp); return -1; } static bool wait_for_delete(void) { int i; for (i = 0; i < 1000; ++i) { int fd = open(enable_file, O_RDONLY); if (fd == -1) return true; close(fd); usleep(1000); } return false; } static int clear(int *check) { struct user_unreg unreg = {0}; int fd; unreg.size = sizeof(unreg); unreg.disable_bit = 31; unreg.disable_addr = (__u64)check; fd = open(data_file, O_RDWR); if (fd == -1) return -1; if (ioctl(fd, DIAG_IOCSUNREG, &unreg) == -1) if (errno != ENOENT) goto fail; if (ioctl(fd, DIAG_IOCSDEL, "__test_event") == -1) { if (errno == EBUSY) { if (!wait_for_delete()) goto fail; } else if (errno != ENOENT) goto fail; } close(fd); return 0; fail: close(fd); return -1; } static int check_print_fmt(const char *event, const char *expected, int *check) { struct user_reg reg = {0}; char print_fmt[256]; int ret; int fd; /* Ensure cleared */ ret = clear(check); if (ret != 0) return ret; fd = open(data_file, O_RDWR); if (fd == -1) return fd; reg.size = sizeof(reg); reg.name_args = (__u64)event; reg.enable_bit = 31; reg.enable_addr = (__u64)check; reg.enable_size = sizeof(*check); /* Register should work */ ret = ioctl(fd, DIAG_IOCSREG, ®); if (ret != 0) { close(fd); printf("Reg failed in fmt\n"); return ret; } /* Ensure correct print_fmt */ ret = get_print_fmt(print_fmt, sizeof(print_fmt)); close(fd); if (ret != 0) return ret; return strcmp(print_fmt, expected); } FIXTURE(user) { int status_fd; int data_fd; int enable_fd; int check; bool umount; }; FIXTURE_SETUP(user) { USER_EVENT_FIXTURE_SETUP(return, self->umount); self->status_fd = open(status_file, O_RDONLY); ASSERT_NE(-1, self->status_fd); self->data_fd = open(data_file, O_RDWR); ASSERT_NE(-1, self->data_fd); self->enable_fd = -1; } FIXTURE_TEARDOWN(user) { USER_EVENT_FIXTURE_TEARDOWN(self->umount); close(self->status_fd); close(self->data_fd); if (self->enable_fd != -1) { write(self->enable_fd, "0", sizeof("0")); close(self->enable_fd); } if (clear(&self->check) != 0) printf("WARNING: Clear didn't work!\n"); } TEST_F(user, register_events) { struct user_reg reg = {0}; struct user_unreg unreg = {0}; reg.size = sizeof(reg); reg.name_args = (__u64)"__test_event u32 field1; u32 field2"; reg.enable_bit = 31; reg.enable_addr = (__u64)&self->check; reg.enable_size = sizeof(self->check); unreg.size = sizeof(unreg); unreg.disable_bit = 31; unreg.disable_addr = (__u64)&self->check; /* Register should work */ ASSERT_EQ(0, ioctl(self->data_fd, DIAG_IOCSREG, ®)); ASSERT_EQ(0, reg.write_index); /* Multiple registers to the same addr + bit should fail */ ASSERT_EQ(-1, ioctl(self->data_fd, DIAG_IOCSREG, ®)); ASSERT_EQ(EADDRINUSE, errno); /* Multiple registers to same name should result in same index */ reg.enable_bit = 30; ASSERT_EQ(0, ioctl(self->data_fd, DIAG_IOCSREG, ®)); ASSERT_EQ(0, reg.write_index); /* Register without separator spacing should still match */ reg.enable_bit = 29; reg.name_args = (__u64)"__test_event u32 field1;u32 field2"; ASSERT_EQ(0, ioctl(self->data_fd, DIAG_IOCSREG, ®)); ASSERT_EQ(0, reg.write_index); /* Multiple registers to same name but different args should fail */ reg.enable_bit = 29; reg.name_args = (__u64)"__test_event u32 field1;"; ASSERT_EQ(-1, ioctl(self->data_fd, DIAG_IOCSREG, ®)); ASSERT_EQ(EADDRINUSE, errno); /* Ensure disabled */ self->enable_fd = open(enable_file, O_RDWR); ASSERT_NE(-1, self->enable_fd); ASSERT_NE(-1, write(self->enable_fd, "0", sizeof("0"))) /* Enable event and ensure bits updated in status */ ASSERT_NE(-1, write(self->enable_fd, "1", sizeof("1"))) ASSERT_EQ(1 << reg.enable_bit, self->check); /* Disable event and ensure bits updated in status */ ASSERT_NE(-1, write(self->enable_fd, "0", sizeof("0"))) ASSERT_EQ(0, self->check); /* File still open should return -EBUSY for delete */ ASSERT_EQ(-1, ioctl(self->data_fd, DIAG_IOCSDEL, "__test_event")); ASSERT_EQ(EBUSY, errno); /* Unregister */ ASSERT_EQ(0, ioctl(self->data_fd, DIAG_IOCSUNREG, &unreg)); unreg.disable_bit = 30; ASSERT_EQ(0, ioctl(self->data_fd, DIAG_IOCSUNREG, &unreg)); unreg.disable_bit = 29; ASSERT_EQ(0, ioctl(self->data_fd, DIAG_IOCSUNREG, &unreg)); /* Delete should have been auto-done after close and unregister */ close(self->data_fd); ASSERT_EQ(true, wait_for_delete()); } TEST_F(user, write_events) { struct user_reg reg = {0}; struct iovec io[3]; __u32 field1, field2; int before = 0, after = 0; reg.size = sizeof(reg); reg.name_args = (__u64)"__test_event u32 field1; u32 field2"; reg.enable_bit = 31; reg.enable_addr = (__u64)&self->check; reg.enable_size = sizeof(self->check); field1 = 1; field2 = 2; io[0].iov_base = ®.write_index; io[0].iov_len = sizeof(reg.write_index); io[1].iov_base = &field1; io[1].iov_len = sizeof(field1); io[2].iov_base = &field2; io[2].iov_len = sizeof(field2); /* Register should work */ ASSERT_EQ(0, ioctl(self->data_fd, DIAG_IOCSREG, ®)); ASSERT_EQ(0, reg.write_index); ASSERT_EQ(0, self->check); /* Write should fail on invalid slot with ENOENT */ io[0].iov_base = &field2; io[0].iov_len = sizeof(field2); ASSERT_EQ(-1, writev(self->data_fd, (const struct iovec *)io, 3)); ASSERT_EQ(ENOENT, errno); io[0].iov_base = ®.write_index; io[0].iov_len = sizeof(reg.write_index); /* Write should return -EBADF when event is not enabled */ ASSERT_EQ(-1, writev(self->data_fd, (const struct iovec *)io, 3)); ASSERT_EQ(EBADF, errno); /* Enable event */ self->enable_fd = open(enable_file, O_RDWR); ASSERT_NE(-1, write(self->enable_fd, "1", sizeof("1"))) /* Event should now be enabled */ ASSERT_NE(1 << reg.enable_bit, self->check); /* Write should make it out to ftrace buffers */ before = trace_bytes(); ASSERT_NE(-1, writev(self->data_fd, (const struct iovec *)io, 3)); after = trace_bytes(); ASSERT_GT(after, before); /* Negative index should fail with EINVAL */ reg.write_index = -1; ASSERT_EQ(-1, writev(self->data_fd, (const struct iovec *)io, 3)); ASSERT_EQ(EINVAL, errno); } TEST_F(user, write_empty_events) { struct user_reg reg = {0}; struct iovec io[1]; int before = 0, after = 0; reg.size = sizeof(reg); reg.name_args = (__u64)"__test_event"; reg.enable_bit = 31; reg.enable_addr = (__u64)&self->check; reg.enable_size = sizeof(self->check); io[0].iov_base = ®.write_index; io[0].iov_len = sizeof(reg.write_index); /* Register should work */ ASSERT_EQ(0, ioctl(self->data_fd, DIAG_IOCSREG, ®)); ASSERT_EQ(0, reg.write_index); ASSERT_EQ(0, self->check); /* Enable event */ self->enable_fd = open(enable_file, O_RDWR); ASSERT_NE(-1, write(self->enable_fd, "1", sizeof("1"))) /* Event should now be enabled */ ASSERT_EQ(1 << reg.enable_bit, self->check); /* Write should make it out to ftrace buffers */ before = trace_bytes(); ASSERT_NE(-1, writev(self->data_fd, (const struct iovec *)io, 1)); after = trace_bytes(); ASSERT_GT(after, before); } TEST_F(user, write_fault) { struct user_reg reg = {0}; struct iovec io[2]; int l = sizeof(__u64); void *anon; reg.size = sizeof(reg); reg.name_args = (__u64)"__test_event u64 anon"; reg.enable_bit = 31; reg.enable_addr = (__u64)&self->check; reg.enable_size = sizeof(self->check); anon = mmap(NULL, l, PROT_READ, MAP_PRIVATE | MAP_ANONYMOUS, -1, 0); ASSERT_NE(MAP_FAILED, anon); io[0].iov_base = ®.write_index; io[0].iov_len = sizeof(reg.write_index); io[1].iov_base = anon; io[1].iov_len = l; /* Register should work */ ASSERT_EQ(0, ioctl(self->data_fd, DIAG_IOCSREG, ®)); ASSERT_EQ(0, reg.write_index); /* Enable event */ self->enable_fd = open(enable_file, O_RDWR); ASSERT_NE(-1, write(self->enable_fd, "1", sizeof("1"))) /* Write should work normally */ ASSERT_NE(-1, writev(self->data_fd, (const struct iovec *)io, 2)); /* Faulted data should zero fill and work */ ASSERT_EQ(0, madvise(anon, l, MADV_DONTNEED)); ASSERT_NE(-1, writev(self->data_fd, (const struct iovec *)io, 2)); ASSERT_EQ(0, munmap(anon, l)); } TEST_F(user, write_validator) { struct user_reg reg = {0}; struct iovec io[3]; int loc, bytes; char data[8]; int before = 0, after = 0; reg.size = sizeof(reg); reg.name_args = (__u64)"__test_event __rel_loc char[] data"; reg.enable_bit = 31; reg.enable_addr = (__u64)&self->check; reg.enable_size = sizeof(self->check); /* Register should work */ ASSERT_EQ(0, ioctl(self->data_fd, DIAG_IOCSREG, ®)); ASSERT_EQ(0, reg.write_index); ASSERT_EQ(0, self->check); io[0].iov_base = ®.write_index; io[0].iov_len = sizeof(reg.write_index); io[1].iov_base = &loc; io[1].iov_len = sizeof(loc); io[2].iov_base = data; bytes = snprintf(data, sizeof(data), "Test") + 1; io[2].iov_len = bytes; /* Undersized write should fail */ ASSERT_EQ(-1, writev(self->data_fd, (const struct iovec *)io, 1)); ASSERT_EQ(EINVAL, errno); /* Enable event */ self->enable_fd = open(enable_file, O_RDWR); ASSERT_NE(-1, write(self->enable_fd, "1", sizeof("1"))) /* Event should now be enabled */ ASSERT_EQ(1 << reg.enable_bit, self->check); /* Full in-bounds write should work */ before = trace_bytes(); loc = DYN_LOC(0, bytes); ASSERT_NE(-1, writev(self->data_fd, (const struct iovec *)io, 3)); after = trace_bytes(); ASSERT_GT(after, before); /* Out of bounds write should fault (offset way out) */ loc = DYN_LOC(1024, bytes); ASSERT_EQ(-1, writev(self->data_fd, (const struct iovec *)io, 3)); ASSERT_EQ(EFAULT, errno); /* Out of bounds write should fault (offset 1 byte out) */ loc = DYN_LOC(1, bytes); ASSERT_EQ(-1, writev(self->data_fd, (const struct iovec *)io, 3)); ASSERT_EQ(EFAULT, errno); /* Out of bounds write should fault (size way out) */ loc = DYN_LOC(0, bytes + 1024); ASSERT_EQ(-1, writev(self->data_fd, (const struct iovec *)io, 3)); ASSERT_EQ(EFAULT, errno); /* Out of bounds write should fault (size 1 byte out) */ loc = DYN_LOC(0, bytes + 1); ASSERT_EQ(-1, writev(self->data_fd, (const struct iovec *)io, 3)); ASSERT_EQ(EFAULT, errno); /* Non-Null should fault */ memset(data, 'A', sizeof(data)); loc = DYN_LOC(0, bytes); ASSERT_EQ(-1, writev(self->data_fd, (const struct iovec *)io, 3)); ASSERT_EQ(EFAULT, errno); } TEST_F(user, print_fmt) { int ret; ret = check_print_fmt("__test_event __rel_loc char[] data", "print fmt: \"data=%s\", __get_rel_str(data)", &self->check); ASSERT_EQ(0, ret); ret = check_print_fmt("__test_event __data_loc char[] data", "print fmt: \"data=%s\", __get_str(data)", &self->check); ASSERT_EQ(0, ret); ret = check_print_fmt("__test_event s64 data", "print fmt: \"data=%lld\", REC->data", &self->check); ASSERT_EQ(0, ret); ret = check_print_fmt("__test_event u64 data", "print fmt: \"data=%llu\", REC->data", &self->check); ASSERT_EQ(0, ret); ret = check_print_fmt("__test_event s32 data", "print fmt: \"data=%d\", REC->data", &self->check); ASSERT_EQ(0, ret); ret = check_print_fmt("__test_event u32 data", "print fmt: \"data=%u\", REC->data", &self->check); ASSERT_EQ(0, ret); ret = check_print_fmt("__test_event int data", "print fmt: \"data=%d\", REC->data", &self->check); ASSERT_EQ(0, ret); ret = check_print_fmt("__test_event unsigned int data", "print fmt: \"data=%u\", REC->data", &self->check); ASSERT_EQ(0, ret); ret = check_print_fmt("__test_event s16 data", "print fmt: \"data=%d\", REC->data", &self->check); ASSERT_EQ(0, ret); ret = check_print_fmt("__test_event u16 data", "print fmt: \"data=%u\", REC->data", &self->check); ASSERT_EQ(0, ret); ret = check_print_fmt("__test_event short data", "print fmt: \"data=%d\", REC->data", &self->check); ASSERT_EQ(0, ret); ret = check_print_fmt("__test_event unsigned short data", "print fmt: \"data=%u\", REC->data", &self->check); ASSERT_EQ(0, ret); ret = check_print_fmt("__test_event s8 data", "print fmt: \"data=%d\", REC->data", &self->check); ASSERT_EQ(0, ret); ret = check_print_fmt("__test_event u8 data", "print fmt: \"data=%u\", REC->data", &self->check); ASSERT_EQ(0, ret); ret = check_print_fmt("__test_event char data", "print fmt: \"data=%d\", REC->data", &self->check); ASSERT_EQ(0, ret); ret = check_print_fmt("__test_event unsigned char data", "print fmt: \"data=%u\", REC->data", &self->check); ASSERT_EQ(0, ret); ret = check_print_fmt("__test_event char[4] data", "print fmt: \"data=%s\", REC->data", &self->check); ASSERT_EQ(0, ret); } int main(int argc, char **argv) { return test_harness_run(argc, argv); }
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